Corrected magnetic resonance imaging using coil sensitivities

1 . A medical apparatus for generating a corrected magnetic resonance image comprising pixels, wherein the medical apparatus comprises: a memory for storing machine executable instructions; and a processor for executing the machine executable instructions, wherein execution of the machine executable instructions causes the processor to: receive a set of N magnetic resonance images, wherein N is a positive integer greater than or equal to one, wherein each of the set of N magnetic resonance images corresponds to one of N coil elements of a magnetic resonance imaging coil, wherein each of the set of N magnetic resonance images comprises the same number of pixels as the corrected magnetic resonance image; receive a set of coil sensitivities for each of the N coil elements; determine for each of the N coil elements a coil sensitivity calibration for each of the pixels; calculate a value for each pixel of the pixels of the corrected magnetic resonance image by dividing a first summation comprising the modulus value of the coil sensitivity calibration for the pixel in each of the set of coil sensitivities and of the pixel-value in each of the set of N magnetic resonance images by a second summation comprising the squared modulus of the coil sensitivity calibration for the pixel in each of the set of coil sensitivities, for reducing the inhomogeneity of the corrected magnetic resonance image acquired using surface coils with multiple elements. 2 . The medical apparatus of claim 1 , wherein the first summation is the summation of the magnitude of the coil sensitivity for the pixel in each of the set of coil sensitivities times the magnitude of the pixel in each of the set of N magnetic resonance images, and wherein the second summation is the summation of the square of the magnitude of the coil sensitivity for the pixel. 3 . The medical apparatus of claim 1 , wherein the first summation divided by the second summation is algebraically equivalent to: Σ i=1 N |S i ∥m i | . . . / . . . (Σ i=1 N (| S i | 2 )+ R −1 ) . . . , or Σ i=1 N |S i ∥m i | . . . / . . . (Σ i=1 N (| S i | 2 ) . . . , or Σ i=1 N |S i |m i . . . /(Σ i=1 N (| S i | 2 )+ R −1 ) . . . , or Σ i=1 N |S i |m i . . . / . . . (Σ i=1 N (| S i | 2 ) . . . , , wherein i is an index variable, wherein m i is the value of the pixel in the ith member of the set of N magnetic resonance images, wherein S i is the coil sensitivity calibration for pixel of the ith member the set of coil sensitivities, and wherein R . . . , is a regularization parameter. 4 . A medical apparatus for generating a corrected magnetic resonance image comprising pixels, wherein the medical apparatus comprises: a memory for storing machine executable; and a processor for executing the machine executable instructions, wherein execution of the machine executable instructions causes the processor to: receive a set of N magnetic resonance images, wherein N is a positive integer greater than or equal to one, wherein each of the set of N magnetic resonance images corresponds to one of N coil elements of a magnetic resonance imaging coil, wherein each of the set of N magnetic resonance images comprises the same number of pixels as the corrected magnetic resonance image; receive a set of coil sensitivities for each of the N coil elements; determine for each of the N coil elements a coil sensitivity calibration for each of the pixels; calculate a value for each pixel of the pixels of the corrected magnetic resonance image by dividing a first summation comprising a square of the magnitude of the value of the pixel in each of the set of N magnetic resonance images, by a second summation comprising a square root of the summation of the square of the magnitude of the complex coil sensitivity for the pixel. 5 . A medical apparatus for generating a corrected magnetic resonance image comprising pixels, wherein the medical apparatus comprises: a memory for storing machine executable instructions; and a processor for executing the machine executable instructions, wherein execution of the machine executable instructions causes the processor to: receive a set of N magnetic resonance images, wherein N is a positive integer greater than or equal to one, wherein each of the set of N magnetic resonance images corresponds to one of N coil elements of a magnetic resonance imaging coil, wherein each of the set of N magnetic resonance images comprises the same number of pixels as the corrected magnetic resonance image; receive a set of coil sensitivities for each of the N coil elements; determine for each of the N coil elements a coil sensitivity calibration for each of the pixels; calculate a value for each pixel of the pixels of the corrected magnetic resonance image by dividing a first summation divided by a second summation is algebraically equivalent to: √{square root over (Σ i=1 N |m i | 2 )}/ . . . √{square root over ((Σ i=1 N (| S i | 2 )+ R −1 )} . . . or √{square root over (Σ i=1 N |m i | 2 )}/ . . . √{square root over ((Σ i=1 N (| S i | 2 )}, wherein i is an index variable, wherein m i is the value of the pixel in the ith member of the set of N magnetic resonance images, wherein S i is the coil sensitivity calibration for pixel of the ith member the set of coil sensitivities, and wherein and wherein R is a regularization parameter. 6 . The medical apparatus of claim 1 , wherein execution of the instructions causes the processor to receive the coil sensitivities when the coil sensitivities are acquired in partial k-space. 7 . The medical apparatus of claim 1 , wherein the pixels in each of the set of N magnetic resonance images are real valued. 8 . The medical apparatus of claim 1 , wherein the medical apparatus comprises a magnetic resonance imaging system, wherein the magnetic resonance imaging system further comprises a radio frequency system operable for acquiring magnetic resonance data with the magnetic resonance imaging coil, wherein execution of the instructions further cause the processor to: acquire imaging magnetic resonance data using the radio frequency system and the magnetic resonance imaging coil; and reconstruct the imaging magnetic resonance data into the set of N magnetic resonance images. 9 . The medical apparatus of claim 8 , wherein the magnetic resonance imaging system further comprises a uniform body coil, wherein the radio frequency system is operable for acquiring reference magnetic resonance data using the uniform body coil, wherein execution of the instructions further cause the processor to: acquire the reference magnetic resonance data using the radio frequency system and the uniform body coil, acquire calibration magnetic resonance data using the using the radio frequency system and the magnetic resonance imaging coil; reconstruct a reference magnetic resonance image using the reference magnetic resonance data; reconstruct a set of N calibration magnetic resonance images using the calibration magnetic resonance data; and calculate the set of coil sensitivities using the set of N calibration magnetic resonance images and the reference magnetic resonance image. 10 . The medical apparatus of claim 8 , wherein execution of the instructions cause the processor to acquire the imaging magnetic resonance data using a PROPELLER technique, and wherein the magnetic resonance data is reconstructed into the set of N magnetic resonance images using the PROPELLER technique. 11 . The medical apparatus of claim 10 , wherein the PROPELLER technique uses phase correction to remove a low-frequency spatially varying phase error in image s